CN102542172A - Portable remote health monitoring system based on mobile communication platform - Google Patents

Abstract

The invention provides a portable remote health monitoring system based on a mobile communication platform. The portable remote health monitoring system comprises a computer, a remote monitoring machine and more than one mobile monitoring terminals, wherein the computer is connected with the remote monitoring equipment through a USB (Universal Serial Bus) interface and is further connected with the Internet through a network interface, thereby realizing user management, ID (identity card) number allocation, user information checking and alarm signal transmission of the mobile monitoring terminal; the mobile monitoring terminal communicates with the remote monitoring equipment through a GSM/GPRS (Global System for Mobile Communications/General Packet Radio Service) network; and the mobile monitoring terminal acquires user electrocardio signals, monitors the human health situation in real time and makes a remote alarm and transmits the electrocardio signals when illness happens. According to the invention, the GSM/GPRS and Internet communication network are adopted; the remote health monitoring is realized; and the invention has the advantages of low cost, simple installation and operation, timely alarm and remote monitoring and the like.

Description

Portable remote health monitoring system based on mobile communication platform

Technical field

The present invention relates to GSM/GPRS communication and Electrocardioscopy field, be specifically related to portable remote health monitoring system based on mobile communication platform.

Background technology

Along with the lifting of development of electronic technology and people's philosophy of life, Medical Devices more and more stronger to the demand of Health Category and monitoring, convenient, low-cost, monitoring in real time become a research focus.Traditional Medical Devices are a separate component basically, the strong request that Along with people's interconnects to information, and traditional medical equipment just develops towards the data interchange direction.

Domestic research and achievement about remote health supervisory system aspect is less, adds that the traditional medical device structure is huge, carries inconvenience, and cost is expensive, is unfavorable for popularizing, and has limited the development of domestic medical and health care system.Each patient's case history lack of uniform management simultaneously, the interconnecting property of poor information between each hospital is not easy to the diagnosis of doctor to patient, and for diseases such as paroxysmal heart diseases, also because shortage finds timely and treatment has caused a lot of misfortune.

Generally speaking, remote health supervisory system field mainly faces following problem at present: the first, the traditional medical device-restrictive popularizing of portable health monitoring system; The second, find timely and treat for all kinds of sudden heart disease shortages; Three, data deficiency intercommunity, the electronic data library management of lack of uniform simultaneously.

Summary of the invention

The objective of the invention is to overcome the deficiency that remote health supervisory system field exists, a kind of portable remote health monitoring system based on mobile communication platform is provided.Concrete technical scheme is following:

Based on the portable remote health monitoring system of mobile communication platform, comprise computing machine, remote supervisory and controlling equipment and more than one mobile monitor end; Computing machine is connected with remote supervisory and controlling equipment through USB interface, is connected with the internet through network interface simultaneously, realizes the management of mobile monitor end subscriber, ID number distribution, user profile inquiry and alerting signal transmission; The mobile monitor end is communicated by letter with remote supervisory and controlling equipment through the GSM/GPRS network, and the mobile monitor end is gathered user's electrocardiosignal in real time, and the monitoring of human health state is occurring carrying out remote alarms and electrocardiosignal transmission under the situation of the state of an illness.Said mobile monitor end is gathered human ecg signal through three modes of leading.

In the above-mentioned portable remote health monitoring system based on mobile communication platform, said remote supervisory and controlling equipment comprises usb communication module, a GSM/GPRS communication module, a SD card data memory module, monitoring equipment microprocessor module and monitoring equipment system power supply; Usb communication module one end is connected with the monitoring equipment microprocessor, and the other end is connected with computing machine, is responsible for the usb communication of remote supervisory and controlling equipment and computing machine; The one GSM/GPRS communication module is connected with the mode of monitoring equipment microprocessor module through serial ports, is used for and the mobile monitor end communication, receives and send the GSM/GPRS network packet; The one SD card data memory module is connected through Serial Peripheral Interface with the monitoring equipment microprocessor module, is used to store the tabulation of mobile monitor end subscriber, ID number and each user's historical record.

Said remote supervisory and controlling equipment comprises usb communication module, a GSM/GPRS communication module, a SD card data memory module, monitoring equipment microprocessor module and monitoring equipment system power supply; Usb communication module one end is connected with the monitoring equipment microprocessor, and the other end is connected with computing machine, is responsible for the usb communication of remote supervisory and controlling equipment and computing machine; The one GSM/GPRS communication module is connected with the mode of monitoring equipment microprocessor module through serial ports, is used for and the mobile monitor end communication, receives and send the GSM/GPRS network packet; The one SD card data memory module is connected through Serial Peripheral Interface with the monitoring equipment microprocessor module, is used to store the tabulation of mobile monitor end subscriber, ID number and each user's historical record.

In the above-mentioned portable health monitoring system based on mobile communication platform, the usb communication module couples together through the microprocessor module of USB line (USBDM/USBDP) with computing machine and remote supervisory and controlling equipment; The one GSM/GPRS communication module is connected with the microprocessor of remote supervisory and controlling equipment through Serial Port Line (RXD/TXD/GND); The one SD card data memory module is connected with microprocessor through SPI (Serial Peripheral Interface) interface (SCLK/SDATA/SRST).

In the above-mentioned remote health supervisory system based on mobile communication platform; Said mobile monitor end comprises the 2nd GSM/GPRS communication module, TFT touch-screen human-computer interaction module, ecg signal acquiring and pre-processing module, the 2nd SD card data memory module, monitoring client microprocessor module and mobile monitoring system power supply; The 2nd GSM/GPRS communication module is connected with the mode of microprocessor module through serial ports, and responsible mobile monitor end is communicated by letter with the GSM/GPRS network; The TFT touch screen module is connected with the monitoring client microprocessor module through data bus and Serial Peripheral Interface, is used to read user's instruction input, shows cardiogram and measurement result; Ecg signal acquiring and pre-processing module are gathered electrocardiosignal through three modes of leading; And signal is carried out amplification filtering handle back input ADC conversion chip; Microprocessor is connected with the ADC conversion chip through Serial Peripheral Interface, realizes collection and processing to electrocardiosignal; The 2nd SD card data memory module is used to store the needed data of human-computer interaction interface and writes down history file, the electrocardiographic recorder that is in use produced

In the above-mentioned remote health supervisory system based on mobile communication platform, the 2nd GSM/GPRS communication module is connected with the microprocessor of mobile monitor end through Serial Port Line (RXD/TXD/GND); The TFT touch screen module is connected with microprocessor module through 8080 data buss (RS/CS/WR/RD/DATA) and SPI (Serial Peripheral Interface) interface (SCLK/SDATA/SRST); Ecg signal acquiring and pre-processing module are gathered electrocardiosignal through three modes of leading; And signal is carried out amplification filtering handle back input ADC conversion chip; Microprocessor is connected with the ADC conversion chip through SPI (Serial Peripheral Interface) interface (SCLK/SDATA/SRST), realizes collection and processing to electrocardiosignal; The 2nd SD card data memory module is connected with microprocessor through SPI (Serial Peripheral Interface) interface (SCLK/SDATA/SRST).

In the above-mentioned mobile monitor end; TFT touch-screen human-computer interaction module is made up of 3.2 cun very color display screens of TFT and four-wire resistance type touch screen; 3.2 the true color screen of very little TFT can be connected with the microprocessor module of mobile monitor end through the mode of 8080 buses (RS/CS/WR/RD/DATA); Four output interfaces of four-wire resistance type touch screen are connected with touch chip (HT2046); HT2046 is connected with the microprocessor module of mobile monitoring device through the mode of SPI (Serial Peripheral Interface) interface (SCLK/SDATA/SRST) again, and this module is used to read user's control input operation, shows cardiogram and measurement result.

In the above-mentioned mobile monitor end; Ecg signal acquiring and pre-processing module comprise operational amplifier and AD conversion chip; Ecg signal acquiring and pre-processing module carry out the electrocardio weak electric signal to carry out filtering and additive operation again after difference is amplified, and convert the electric signal of AD conversion chip ability Direct Sampling into, and microprocessor is through obtaining the electrocardio sampled data with the AD conversion chip; Through the electrocardiogram (ECG) data that analyzing and processing samples, realize monitoring to the health state; The mobile monitor end, is stored electrocardiogram (ECG) data simultaneously and is supplied inquiry to remote supervisory and controlling equipment through GSM/GPRS communication module transmission measurement result, electrocardiosignal figure.

In the above-mentioned remote health supervisory system based on mobile communication platform; The microprocessor module of remote supervisory and controlling equipment and mobile monitor end is formed by MCU chip (32 ARM micro controller STM32F103RBT6), reset circuit, external crystal oscillation circuit; Accomplish data acquisition, processing; The work of connected other modules of control is coordinated in process control.

In the above-mentioned remote health supervisory system based on mobile communication platform; The microprocessor module of remote supervisory and controlling equipment and mobile monitor end all comprises MCU chip, reset circuit and external crystal oscillation circuit separately; Accomplish data acquisition, processing, the work of the connected module of control is coordinated in process control; The remote supervisory and controlling equipment system power supply is made up of DC direct supply and voltage stabilizing chip, is supplied to each module of remote supervisory and controlling equipment; The mobile monitoring system power supply is made up of dynamic lithium battery and voltage stabilizing chip, is supplied to each module of mobile monitor end.

Compared with prior art, the present invention has following advantage and technique effect: the present invention is simple in structure, and is easy to carry, and cost is low, is convenient to popularize, for the remote health monitoring provides a kind of practicable portable remote health monitoring system.The present invention is based on mobile communication platform (GSM/GPRS) simultaneously; The mobile monitor end possess the GPRS network communication function make its can with the more convenient information interaction of carrying out of remote monitoring end; More help each patient's data such as case history are carried out unified management, the information between each hospital also has the property of interconnecting.In addition; The present invention is simple to operate; Data transmission only need can be sent to the remote monitoring end through mobile communication platform ((GSM/GPRS)); Avoided multiple data transmission and wasted valuable rescue time, for diseases such as paroxysmal heart disease can in time find and for the rescue and treatment strive for more time.

Description of drawings

Fig. 1 is the frame diagram of the remote health supervisory system in the embodiment of the present invention.

Fig. 2 is the structural drawing of the remote supervisory and controlling equipment in the embodiment of the present invention.

Fig. 3 is the structural drawing of the mobile monitor end in the embodiment of the present invention.

Fig. 4 is the computer client application software architecture figure in the embodiment of the present invention.

Fig. 5 is the software flow pattern of the remote supervisory and controlling equipment in the embodiment of the present invention.

Fig. 6 is the software flow pattern of the mobile monitor end in the embodiment of the present invention.

Embodiment

Below in conjunction with accompanying drawing and embodiment enforcement of the present invention is further described, but the scope that the present invention requires to protect is not limited to the scope that following examples are explained.

1, hardware plan

(1), comprises computing machine, remote supervisory and controlling equipment and mobile monitor end three parts based on the portable health monitoring system of mobile communication platform; Computing machine is connected with remote supervisory and controlling equipment through USB line (USBDM/USBDP), realizes mobile monitor end member management, ID number distribution, user profile inquiry, alerting signal transmission; Remote supervisory and controlling equipment and mobile monitor end be through GSM/GPRS network service, and the mobile monitor end is gathered human ecg signal through three modes of leading.

(2) remote supervisory and controlling equipment comprises usb communication module, a GSM/GPRS communication module, a SD card data memory module, monitoring equipment microprocessor module, monitoring equipment system power supply; The usb communication module is made up of CH376 and peripheral cell; Be connected with the remote supervisory and controlling equipment microprocessor module through SPI (Serial Peripheral Interface) interface (SCLK/SDATA/SRST); Reserve USB interface (USBDM/USBDP) in order to connect computing machine USB mouth, be responsible for the usb communication of remote supervisory and controlling equipment and computing machine; The GSM/GPRS communication module is made up of EM310 and peripheral cell; The EM310 module is connected with microprocessor module through serial ports (RXD/TXD), and this module is used to receive the mobile monitor end and reaches the cardiogram that passes over through GPRS network through the short message that the GSM network sends; SD card data memory module is made up of SD deck and peripheral cell thereof; Be connected with the remote supervisory and controlling equipment microprocessor module through SPI (Serial Peripheral Interface) interface (SCLK/SDATA/SRST); Be used for the tabulation of required data of using of storage system and mobile monitor end subscriber, each user's historical record; The monitoring equipment microprocessor module is made up of MCU chip (32 ARM micro controller STM32F103RBT6), reset circuit, outer clock circuit, accomplishes data acquisition, processing, and the work of connected other modules of control is coordinated in process control; The monitoring equipment system power supply is made up of DC direct current 9V power supply and voltage stabilizing chip etc., the 220V alternating current is converted to+9V ,+5V ,+the 3.3V direct current, be supplied to other modules in the system.

(3) the mobile monitor end comprises the 2nd GSM/GPRS communication module, TFT touch-screen human-computer interaction module, ecg signal acquiring and pre-processing module, the 2nd SD card data memory module, monitoring client microprocessor module and mobile monitoring system power supply; The 2nd GSM/GPRS communication module is made up of EM310 and peripheral cell, and the EM310 module is connected with microprocessor module through serial ports (RXD/TXD), and this module is used to send the GSM alerting signal, and sends cardiogram to remote supervisory and controlling equipment through GPRS; TFT touch-screen human-computer interaction module is made up of 3.2 cun true color screens of TFT, HT2046 touch chip and peripheral cells; The TFT display screen can be connected with the microprocessor module of mobile monitor end through the mode of 8080 buses (RS/CS/WR/RD/DATA); Four output interfaces of four-wire resistance type touch screen are connected with HT2046; HT2046 is connected with the microprocessor module of mobile monitoring device through the mode of SPI (Serial Peripheral Interface) interface (SCLK/SDATA/SRST) again; This module is used to read user's control input operation, shows cardiogram and measurement result; Ecg signal acquiring and pre-processing module are made up of operational amplifier OP07 and ADC conversion chip (MAX1226); Gather the electrocardio weak electric signal through three modes of leading; The differential amplifier circuit that utilizes the OP07 operational amplifier to build the input of the electrocardiosignal that collects; At last the signal after amplifying is carried out filtering and additive operation; Convert the electric signal that ADC conversion chip (MAX1226) can Direct Sampling into, microprocessor through with ADC conversion chip (MAX1226) communication, obtain the electrocardio sampled data; SD card data memory module is made up of SD deck and peripheral cell thereof; Be connected with mobile monitor end microprocessor module through SPI (Serial Peripheral Interface) interface (SCLK/SDATA/SRST), be used to store the needed data of human-computer interaction interface and write down some history files, the electrocardiographic recorder that is in use produced; Mobile monitor end microprocessor module is made up of MCU chip (32 ARM micro controller STM32F103RBT6), reset circuit, outer clock circuit, accomplishes data acquisition, processing, and the work of connected other modules of control is coordinated in process control; Mobile monitor end system power supply is made up of 11.1V lithium battery and voltage stabilizing chip etc., the 11.1V direct current is converted to+5V ,+the 3.3V direct current, be supplied to other modules in the system.

2, the course of work

(1) user installs earlier the computer client application software of remote health supervisory system on computers, for remote supervisory and controlling equipment is connected with the mains, uses the USB line that computing machine USB mouth is connected with the usb communication module of remote supervisory and controlling equipment; Three of the mobile monitor end line that leads is connected with human body, starts the power supply of mobile monitor end, get into normal operating conditions based on the remote health supervisory system of mobile communication platform;

(2) through the computer client application software, the keeper can utilize management function to select to increase or delete the user list in the remote supervisory and controlling equipment; Through ID function is set, can manages the ID of mobile monitor end; Through query function, can inquire about the personal information and the historical record of mobile monitor end subscriber; Through the database update function, can be with the user data upload in the remote supervisory and controlling equipment to the computing machine and the storehouse that Updates Information.

(3) method according to step (2) increases the mobile monitor end subscriber tabulation in the remote supervisory and controlling equipment, configures id number for each mobile monitor end simultaneously, and all configurations of remote health supervisory system are accomplished, and system gets into normal operating conditions;

(4) user leads after line connects three, selects ecg measurement through the TFT touch-screen of mobile monitor end, through screen viewing EGC pattern and measurement result; In case cardiogram occurs unusual, the mobile monitor end sends note and transmits cardiogram to remote supervisory and controlling equipment through the GSM/GPRS module immediately.

(5) after remote supervisory and controlling equipment receives the alerting signal of mobile monitor end transmission, through usb communication module notice computing machine, receive cardiogram simultaneously, and newly-built history document is in the SD card immediately.

Embodiment:

As shown in Figure 1, be the portable remote health monitoring system frame diagram in the present embodiment based on mobile communication platform.Wherein:

(1) the mobile monitor end 1: measure human ecg signal, send a signal to remote supervisory and controlling equipment through GSM/GPRS and report to the police.

(2) the GSM/GPRS wireless network 2: the telecommunication media of mobile monitor end and remote supervisory and controlling equipment is used to transmit the various types of communication data;

(3) computing machine 3: be used to install the computer client application software, friendly man-machine interaction and operation interface is provided, realize functions such as user management, ID number distribution, data base querying;

(4) the broadband netting twine 4: the connecting line of computing machine and internet, the cardiogram of the real-time inspection mobile monitor end subscriber that is used to surf the Net;

(5) remote supervisory and controlling equipment 5: receive the signal that the mobile monitor end sends over, the mobile monitor end is carried out monitoring, simultaneously datagram is uploaded to computing machine;

(6) usb bus 6: the connecting line of computing machine and remote supervisory and controlling equipment, bear the effect of computing machine and remote supervisory and controlling equipment communication media.

For remote supervisory and controlling equipment, as shown in Figure 2, be the remote supervisory and controlling equipment structural drawing.Remote supervisory and controlling equipment 212 mainly comprises with lower unit:

(1) the 220V alternating current 21: for system provides 220V alternating current;

(2) the 220V alternating current line of force 22: transmission 220V alternating current is to the remote supervisory and controlling equipment system power supply;

(3) direct current supply line 23: remote supervisory and controlling equipment system power supply supply line.Provide+9V ,+5V ,+the 3.3V direct supply is to each module;

(4) the GSM/GPRS communication module 24: be used to receive the mobile monitor end and reach the cardiogram that passes over through GPRS network through the short message that the GSM network sends;

(5) serial bus 25: the connecting line of microprocessor module and GSM/GPRS communication module.Universal serial bus comprises: three lines of RXD/TXD/GND;

(6) the remote supervisory and controlling equipment microprocessor module 26: be responsible for data processing and to coordination, the control of other modules.MCU selects 32 high-performance ARM micro controller STM32F103RBT6, the Flash of 128KB, the SRAM of 20KB, the frequency of operation of 72MHz for use;

(7) usb communication module 27:USB communication module is made up of CH376 and peripheral cell, sets up the usb communication passage of computing machine and remote supervisory and controlling equipment.

(8) microprocessor module and usb communication module SPI signal wire 28: SPI (Serial Peripheral Interface) interface (SCLK/SDATA/SRST) that is used to be connected usb communication module and microprocessor module;

(9) SD card data memory module 29: be used for the tabulation of required data of using of storage system and mobile monitor end subscriber, each user's historical record;

(10) microprocessor and SD card memory module SPI signal wire 210: SPI (Serial Peripheral Interface) interface (SCLK/SDATA/SRST) that is used to be connected SD card memory module and microprocessor module;

(11) the remote supervisory and controlling equipment system power supply 211: be responsible for each system module power supply.The remote supervisory and controlling equipment system power supply is made up of DC direct supply and voltage stabilizing chip etc., directly adopts electricity from line of electric force, through voltage stabilizing obtain direct supply+9V ,+5V ,+3.3V;

For the mobile monitor end, as shown in Figure 3, be mobile monitor end structure figure.Mobile monitor end 34 mainly comprises with lower unit:

(1) the lithium battery power supply 31: be responsible for each system module power supply.Mobile monitor end system power supply is made up of 11.1V lithium battery and voltage stabilizing chip etc., lithium battery through voltage stabilizing obtain direct supply+9V ,+5V ,+3.3V;

(2) direct current supply line 32: mobile monitor end system power supply lines.Provide+9V ,+5V ,+the 3.3V direct supply is to each module;

(3) ecg signal acquiring and pre-processing module 33: ecg signal acquiring and pre-processing module are gathered electrocardiosignal through three modes of leading, and signal are carried out amplification filtering handle back input ADC conversion chip;

(4) microprocessor module and microprocessor module and ecg signal acquiring and pre-processing module SPI signal wire 35: microprocessor is connected with the ADC conversion chip through SPI (Serial Peripheral Interface) interface (SCLK/SDATA/SRST), realizes collection and processing to electrocardiosignal;

(5) TFT touch-screen human-computer interaction module 36:TFT touch-screen human-computer interaction module is made up of 3.2 cun true color screens of TFT, HT2046 touch chip and peripheral cells, and this module is used to read user's control input operation, shows cardiogram and measurement result;

(6) TFT touch-screen human-computer interaction module can be connected with the microprocessor module of mobile monitor end with the mode of microprocessor connecting line 37:TFT display screen through 8080 buses (RS/CS/WR/RD/DATA); Four output interfaces of four-wire resistance type touch screen are connected with HT2046, and HT2046 is connected with the microprocessor module of mobile monitoring device through the mode of SPI (Serial Peripheral Interface) interface (SCLK/SDATA/SRST) again;

(7) serial bus 38: the connecting line of microprocessor module and GSM/GPRS communication module.Universal serial bus comprises: three lines of RXD/TXD/GND;

(8) the GSM/GPRS communication module 39: be used for sending SMS message and transmitting cardiogram through GPRS network through the GSM network;

(9) SD card data memory module 310: be used to store the needed data of human-computer interaction interface and write down some history files, the electrocardiographic recorder that is in use produced;

(10) microprocessor and SD card memory module SPI signal wire 311: SPI (Serial Peripheral Interface) interface (SCLK/SDATA/SRST) that is used to be connected SD card memory module and microprocessor module;

(11) mobile monitor end microprocessor module 312: be responsible for data processing and to coordination, the control of other modules.MCU selects 32 high-performance ARM micro controller STM32F103RBT6, the Flash of 128KB, the SRAM of 20KB, the frequency of operation of 72MHz for use;

Like Fig. 4, be the computer client application software architecture figure in the present embodiment.

(1) the computer client application software 41: be installed on the application software on the subscriber computer;

(2) user management 42: utilize management function can select to increase or delete the user list in the remote supervisory and controlling equipment, through ID function is set, can manage the ID of mobile monitor end;

(3) inquiry of user's historical record 43: utilize query function, can inquire about the personal information and the historical record of mobile monitor end subscriber;

(4) the cardiogram on-line measurement 44: the doctor can utilize this function online to obtain the cardiogram of mobile monitor end;

(5) customer data base 45: database system, all case histories and the historical record of store patient;

Like Fig. 5, be present embodiment medium-long range monitoring equipment operational flow diagram.Flow process Figure 51 step is following:

(1) after the power supply, initialization GSM/GPRS module, SD card memory module and usb communication module 52;

(2) check whether GSM/GPRS receives data 53,, then return and continue inquiry if do not receive data; If GSM/GPRS has data transmission to come; Then the request signal type 55, if GSM alerting signal 58, and pass through USB and send alerting signal 57 to computing machine; If not; Whether be GPRS cardiogram 512, the words that are then receive cardiogram and are uploaded to computing machine 511 if then continuing inquiry, no, and words are returned;

(3) check whether computing machine has transfer control signal to come 54; If not then return and continue inquiry, if received computer control signal, then the request signal type 56; If user management instruction 59 then increases deletion user and distributing user id number 510 by command content; Whether if not then checking is historical record inquiry 513, the words that are are then uploaded historical record to computing machine 514; Whether if not then reexamining is database update instruction 515, and the words that are are uploaded data to computing machine, and no, and words are returned;

Like Fig. 6, be mobile monitor end operational flow diagram in the present embodiment.Flow process Figure 61 step is following:

(1) power on after, initialization GSM/GPRS module, SD card memory module and TFT touch screen module 62 etc.;

(2) after initialization is accomplished, wait for that the user imports ecg measurement instruction 63; If the user has selected ecg measurement, system begins to gather ECG data 64, and micro controller is carried out analyzing and processing 66 to the data that collect;

(3) according to the micro controller analysis processing result; It is unusual 68 to judge whether cardiogram exists, if exist unusually, then sends GSM message to remote supervisory and controlling equipment and relatives 69 immediately; Again through GPRS transmission cardiogram to remote supervisory and controlling equipment 67, deposit in the SD card information such as cardiogram and warning in 65 at last;

(4) if cardiogram does not exist unusually, then whether judges has selection to withdraw from ecg measurement 610, and it's not true returns the continuation measurement, and the words that have withdraw from the ecg measurement pattern.

Claims (6)

1. based on the portable remote health monitoring system of mobile communication platform, it is characterized in that comprising computing machine, remote supervisory and controlling equipment and more than one mobile monitor end; Computing machine is connected with remote supervisory and controlling equipment through USB interface, is connected with the internet through network interface simultaneously, realizes the management of mobile monitor end subscriber, ID number distribution, user profile inquiry and alerting signal transmission; The mobile monitor end is communicated by letter with remote supervisory and controlling equipment through the GSM/GPRS network, and the mobile monitor end is gathered user's electrocardiosignal in real time, and the monitoring of human health state is occurring carrying out remote alarms and electrocardiosignal transmission under the situation of the state of an illness.

2. the portable remote health monitoring system based on mobile communication platform according to claim 1; It is characterized in that said remote supervisory and controlling equipment comprises usb communication module, a GSM/GPRS communication module, a SD card data memory module, monitoring equipment microprocessor module and monitoring equipment system power supply; Usb communication module one end is connected with the monitoring equipment microprocessor, and the other end is connected with computing machine, is responsible for the usb communication of remote supervisory and controlling equipment and computing machine; The one GSM/GPRS communication module is connected with the mode of monitoring equipment microprocessor module through serial ports, is used for and the mobile monitor end communication, receives and send the GSM/GPRS network packet; The one SD card data memory module is connected through Serial Peripheral Interface with the monitoring equipment microprocessor module, is used to store the tabulation of mobile monitor end subscriber, ID number and each user's historical record.

3. the portable remote health monitoring system based on mobile communication platform according to claim 1; It is characterized in that; Said mobile monitor end comprises the 2nd GSM/GPRS communication module, TFT touch-screen human-computer interaction module, ecg signal acquiring and pre-processing module, the 2nd SD card data memory module, monitoring client microprocessor module and mobile monitoring system power supply; The 2nd GSM/GPRS communication module is connected with the mode of microprocessor module through serial ports, and responsible mobile monitor end is communicated by letter with the GSM/GPRS network; The TFT touch screen module is connected with the monitoring client microprocessor module through data bus and Serial Peripheral Interface, is used to read user's instruction input, shows cardiogram and measurement result; Ecg signal acquiring and pre-processing module are gathered electrocardiosignal through three modes of leading; And signal is carried out amplification filtering handle back input ADC conversion chip; Microprocessor is connected with the ADC conversion chip through Serial Peripheral Interface, realizes collection and processing to electrocardiosignal; The 2nd SD card data memory module is used to store the needed data of human-computer interaction interface and writes down history file, the electrocardiographic recorder that is in use produced.

4. the portable remote health monitoring system of mobile communication platform according to claim 3; It is characterized in that TFT touch-screen human-computer interaction module is made up of 3.2 cun very color display screens of TFT and four-wire resistance type touch screen; 3.2 the true color screen of very little TFT can be connected with the monitoring client microprocessor module through the mode of data bus; Four-wire resistance type touch screen is connected with touch chip; Touch chip is connected with the monitoring client microprocessor module through the mode of Serial Peripheral Interface again, and TFT touch-screen human-computer interaction module is used to read user's control input operation, shows cardiogram and measurement result.

5. mobile terminal according to claim 3 supervisory system; It is characterized in that ecg signal acquiring and pre-processing module comprise operational amplifier and AD conversion chip; Ecg signal acquiring and pre-processing module carry out the electrocardio weak electric signal to carry out filtering and additive operation again after difference is amplified; Convert the electric signal of AD conversion chip ability Direct Sampling into; Microprocessor through the electrocardiogram (ECG) data that analyzing and processing samples, is realized the monitoring to the health state through obtaining the electrocardio sampled data with the AD conversion chip; The mobile monitor end, is stored electrocardiogram (ECG) data simultaneously and is supplied inquiry to remote supervisory and controlling equipment through GSM/GPRS communication module transmission measurement result, electrocardiosignal figure.

6. the portable remote health monitoring system based on mobile communication platform according to claim 1; The microprocessor module that it is characterized in that remote supervisory and controlling equipment and mobile monitor end all comprises MCU chip, reset circuit and external crystal oscillation circuit separately; Accomplish data acquisition, processing; The work of the connected module of control is coordinated in process control; The remote supervisory and controlling equipment system power supply is made up of DC direct supply and voltage stabilizing chip, is supplied to each module of remote supervisory and controlling equipment; The mobile monitoring system power supply is made up of dynamic lithium battery and voltage stabilizing chip, is supplied to each module of mobile monitor end.

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